The Experts below are selected from a list of 36 Experts worldwide ranked by ideXlab platform
Nasa - One of the best experts on this subject based on the ideXlab platform.
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Bleriot combat monoplane 127 (French)
2019Co-Authors: NasaAbstract:The 127 is a cantilever monoplane without external bracing. It is designed to accompany and protect bombardment and Observation Aircraft.
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Earth Viewing Applications Laboratory (EVAL). Instrument catalog
2013Co-Authors: NasaAbstract:There were 87 instruments described that are used in earth Observation, with an additional 51 instruments containing references to programs and their major functions. These instruments were selected from such sources as: (1) earth Observation flight program, (2) operational satellite improvement programs, (3) advanced application flight experiment program, (4) shuttle experiment definition program, and (5) earth Observation Aircraft program.
Pla Uni - One of the best experts on this subject based on the ideXlab platform.
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Mission-planning system of low Observation Aircraft based on multi-Agent technique
Journal of PLA University of Science and Technology, 2005Co-Authors: Shi He-sheng, Zhao Zong-gui, Pla UniAbstract:With artificial intelligence multi-agent technique, a solution for the mission planning of the low Observation Aircraft to advance the efficiency was presented. Based on the deseription of the object functions and constraint qualifications of the planning, the structure and rank of the mission system, definition of the Agent types, and the negotiation communication between the agents were systematically studied. It is demonstrated that this solution can transform a complicated problem into several simple ones. Therefore, the time and cost of planning can be reduced, and quality of the mission planning can be greatly improved.
P.l. Hezeltine - One of the best experts on this subject based on the ideXlab platform.
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The US open skies synthetic aperture radar (SAROS)
1996Co-Authors: K.r. Fortner, P.l. HezeltineAbstract:This paper discusses the Synthetic Aperture Radar for Open Skies (SAROS), an airborne side-looking synthetic aperture radar (SAR) system installed on the U.S. OC-135B Open Skies Observation Aircraft. The paper discusses in detail how the SAROS is designed to meet the performance requirements and limits of the Treaty on Open Skies. The SAROS is based on the U.S. AN/APD-12 analog radar system which has been modified to digitally record radar, motion, and annotation data on magnetic tape and has been designated as the AN/APD-14. The theoretical performance of the AN/APD-12 SAR exceeds the three meter range and azimuth resolution allowed by the Treaty. The SAROS design will limit the performance of the SAR to no better than three meter`s through reduction in transmitted frequency bandwidth, reduction in azimuth bandwidth, and decimation of azimuth sampling prior to recording of the phase history data. 5 figs.
Woolf - One of the best experts on this subject based on the ideXlab platform.
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The Open Skies Treaty: Issues in the Current Debate
2016Co-Authors: WoolfAbstract:This report discusses the current debate surrounding the Treaty on Open Skies, which the United States, Canada, and 22 European nations signed on March 24, 1992. The treaty entered into force on January 1, 2002, and now has 34 member states. Each participant must permit unarmed Observation Aircraft to fly over its entire territory to observe military forces and activities.
Shi He-sheng - One of the best experts on this subject based on the ideXlab platform.
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Mission-planning system of low Observation Aircraft based on multi-Agent technique
Journal of PLA University of Science and Technology, 2005Co-Authors: Shi He-sheng, Zhao Zong-gui, Pla UniAbstract:With artificial intelligence multi-agent technique, a solution for the mission planning of the low Observation Aircraft to advance the efficiency was presented. Based on the deseription of the object functions and constraint qualifications of the planning, the structure and rank of the mission system, definition of the Agent types, and the negotiation communication between the agents were systematically studied. It is demonstrated that this solution can transform a complicated problem into several simple ones. Therefore, the time and cost of planning can be reduced, and quality of the mission planning can be greatly improved.
